Use of microwave ablation for thermal treatment of solid tumors with different shapes and sizes—A computational approach

Tehrani, Masoud H. H.; Soltani, M.; Kashkooli, Farshad Moradi; Raahemifar, Kaamran

doi:10.1371/journal.pone.0233219

Cited by 53 publications

(60 citation statements)

References 56 publications

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“…There exist both omni-directional and directional radiation pattern approaches for delivery of the microwave energy in literature. As for omni-directional antennas, energy can be transferred into tissues in all directions around the antenna, which was usually used to eradicate tumors in a regular shape (e.g., spherical or elliptical) [21][22][23]. On the other hand, a directional antenna that affords spatial control of the energy deposition may be a better choice when tumors are in proximity to critical structures, such as blood vessels or bile ducts.…”

Section: Introductionmentioning

confidence: 99%

A review of antenna designs for percutaneous microwave ablation

et al. 2021

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Microwave (MW) antenna is a key element in microwave ablation (MWA) treatments as the means that energy is delivered in a focused manner to the tumor and its surrounding area. The energy delivered results in a rise in temperature to a lethal level, resulting in cell death in the ablation zone. The delivery of energy and hence the success of MWA is closely dependent on the structure of the antennas. Therefore, three design criteria, such as expected ablation zone pattern, efficiency of energy delivery, and minimization of the diameter of the antennas have been the focus along the evolution of the MW antenna. To further improve the performance of MWA in the treatment of various tumors through inventing novel antennas, this article reviews the state-of-the-art and summarizes the development of MW antenna designs regarding the three design criteria.

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Section: Introductionmentioning

confidence: 99%

A review of antenna designs for percutaneous microwave ablation

et al. 2021

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“…As tumours have a higher water content than healthy tissues, the microwaves induce rapid heating via interacting with the polar water molecules within the tumour cells. Due to the microwaves ability to propagate through media, they can pass through and heat various tissues making it an applicable thermal ablation therapy for a variety of tissues [ 4 , 5 , 39 , 40 ]. Microwave ablation therapy for hepatocellular carcinoma is being viewed as a potential first line treatment for tumours on the liver surface, in which the tumour is exposed to a 2.45 GHz microwave with a wattage of 80–100 ( Figure 5 ) [ 5 , 41 ].…”

Section: Healthcare Developmentsmentioning

confidence: 99%

“…Due to the higher water content in cancer cells the dielectric properties of the tissue differs when exposed to microwaves [ 51 ]. Despite the nearly 40 years of research into microwave breast imaging, there are still many limitations that prevent a commercially available device that include inappropriate algorithms and sensors; however, with wider clinical trials a viable microwave imaging system may be feasible in the near future [ 39 , 40 ]. Microwave ablation has also been trialled for the treatment of breast cancer and so far has proved to be successful in thermal ablation [ 52 , 53 ].…”

Section: Healthcare Developmentsmentioning

confidence: 99%

“…Microwave ablation has been approved as an effective treatment for a range of cancers with promising results to be implemented for use. If the development of methods and equipment continue then this could be a cost effective, minimally invasive method of treating a variety of sized and shaped tumours [ 40 , 75 ]. Although positive, the development of such techniques is not without challenges, controlling the direction and reflection of the wave is important in all treatments to not damage healthy tissue as well as the size of the delivery antennas [ 76 ].…”

Section: Healthcare Developmentsmentioning

confidence: 99%

“…The antenna is most often needle-shaped but can have a variety of designs including monopole, dipole, and slotted antennas. The antenna design determines the tissue heating pattern and therefore impacts the ablation zone size and shape [ 39 , 40 ].…”

Section: Figurementioning

confidence: 99%

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Applications of Microwave Energy in Medicine

Gartshore

Kidd²,

Joshi

2021

Biosensors

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Microwaves are a highly utilized electromagnetic wave, used across a range of industries including food processing, communications, in the development of novel medical treatments and biosensor diagnostics. Microwaves have known thermal interactions and theorized non-thermal interactions with living matter; however, there is significant debate as to the mechanisms of action behind these interactions and the potential benefits and limitations of their use. This review summarizes the current knowledge surrounding the implementation of microwave technologies within the medical industry.

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Development of A 3D Lung Tumor Model For Cell Death Assessment in Microwave Ablation

Gallagher,

Mitra,

Ward

et al. 2024

Adv Funct Materials

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Primary lung cancer is the leading cause of cancer‐related death worldwide. Recent statistics estimate 1.8 million new cases and 1.6 million deaths per year. Despite significant advances in surgery, chemotherapy, and radiotherapy, the 5‐year survival rate remains at just 18%. Thermal ablation is an established treatment that is safe and effective. It refers to the local application of controlled heat to induce irreversible cell injury and ultimately tumor apoptosis and necrosis. This approach is particularly suitable for the treatment of small tumors in patients who are not suitable for surgery. However, the lack of suitable benchtop models to assess ablation devices complicates prognostic prediction and the development of effective treatment strategies. In this context, the development of a 3D lung tumor model is presented using a cancer cell‐laden hydrogel composed of 2% hyaluronic acid–tyramine (HA‐TA) and 0.5% agarose, resulting in a tumor mimetic of clinically relevant size. This innovative model provides a valuable platform for testing ablation devices and provides insights that can significantly improve prognostic ability and refine treatment approaches for lung cancer patients.

show abstract

Use of microwave ablation for thermal treatment of solid tumors with different shapes and sizes—A computational approach

Cited by 53 publications

References 56 publications

A review of antenna designs for percutaneous microwave ablation

A review of antenna designs for percutaneous microwave ablation

Applications of Microwave Energy in Medicine

Development of A 3D Lung Tumor Model For Cell Death Assessment in Microwave Ablation

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